JP5187904B2 - Exercise optimization support device - Google Patents

Description

  The present invention relates to an exercise optimization support apparatus that supports an optimization of a user's exercise.

  2. Description of the Related Art Conventionally, there is a pedometer (registered trademark) as a device that assists the user in optimizing exercise. The pedometer (registered trademark) has a built-in acceleration sensor, extracts a waveform exceeding a threshold value from the output waveform of the acceleration sensor, and counts the extracted waveform to count the number of steps of the pedestrian. (See Patent Document 1).

JP 2002-360549 A

  By the way, when the atmospheric pressure is high and the oxygen concentration in the air is high, the sympathetic nerve is dominant, and the human can be active and smoothly move, and when the atmospheric pressure is low and the oxygen concentration in the air is low Parasympathetic nerves are dominant, and at low pressure, the load on the vertebrae decreases and the vertebrae grow, but in elderly people who have deformed vertebrae, low back pain, muscle contraction headache, mood is not good It is known that there is a situation where athletic ability declines as a result, and it becomes inactive.

  Such a change in the active or inactive state of the human body is a necessary change that occurs in order to adapt to the natural environment, so exercise that resists such a change is not preferable. For example, exercising in an inactive body state can cause anemia, and exercise that is the same as in an inactive body state and in an active body state can cause illness and injury. Therefore, an apparatus that allows the user to recognize an appropriate movement according to the state of the natural environment is desired.

  This invention proposes in view of the said subject, Comprising: The exercise | movement optimization which a user can recognize appropriate exercise | movement according to the state of natural environment, and can support optimization of a user's exercise | movement An object is to provide a support device.

Motion optimization supporting apparatus of the present invention, the motion information used for user when the detectable motion information detection unit, wherein the motion information detection unit detects the movement information of the user, capable of detecting a plurality of environmental parameters environmental parameter detection unit, such a reference motion information storage unit for storing reference motion information in association to the segment composed of the plurality of environmental parameters, before Symbol the user's motion information motion information detection unit detects The movement information for comparison of the user is acquired, and the classification composed of the plurality of stored environmental parameters corresponding to the plurality of environmental parameters detected by the environmental parameter detection unit is recognized and recognized. a reference motion information associated with the segment, and comparing said acquired comparison for motion information of the user, comparison for motion information of the user is outside the threshold range for the reference motion information A comparison processing unit that outputs warning information to the output unit, and a housing that houses the reference movement information storage unit, the movement information detection unit, and the comparison processing unit, and the environmental parameter detection unit includes: A barometer mounted on the body upper surface, a thermometer mounted on the front surface of the casing, a hygrometer mounted on the front surface of the casing, and mounted on the front surface of the casing The barometer has a resolution of 0.0005 to 0.01 hPa, the thermometer has a resolution of 0.01 to 0.1 degrees C, and the hygrometer is 0.1. A section having a resolution of .about.1.0%, the illuminance sensor having a resolution of 10 to 300 lux, and composed of the plurality of environmental parameters is a temperature range, a humidity range and an illuminance for each predetermined atmospheric pressure range. It is characterized by being associated with a range .

In the exercise optimization support apparatus according to the present invention, the housing includes an input unit and an output unit, and the environmental parameter detected by the environmental parameter detection unit in response to an input from the input unit. acquired, the detected said environmental parameters corresponding to recognize the division of the environmental parameters that the storage, outputting the reference motion information or a modification information corresponding to the classification of the environmental parameters the recognition by the output unit And a reference motion information processing unit.

  In the exercise optimization support apparatus according to the present invention, the exercise information detection unit is an acceleration sensor, a pulse wave meter, an electrocardiograph, or a combination of at least two of them.

Incidentally, the hygrometer, having a measurement accuracy or resolution 0.1-0.6% in good applicable, the illuminance sensor is preferably Assuming that have a measurement accuracy or resolution of 10~200lux good It is.

  In the exercise optimization support apparatus according to the present invention, the environmental parameter detection unit continuously detects the environmental parameter when detecting the exercise information by the exercise information detection unit or within a predetermined time set within 10 minutes. In addition to intermittent detection every short time, the environmental parameter detection unit acquires the detected environmental parameter, and warns when a fluctuation value of the acquired environmental parameter within a predetermined time exceeds a reference fluctuation value It is characterized by including a fluctuation processing unit that outputs information to the output unit.

  The exercise optimization support device according to the present invention includes an annular first band to which the exercise state detection unit is fixedly attached, and both sides of the exercise state detection unit, and the first band is loosely inserted. A pair of belt body fixtures, and a second belt body that is loosely inserted into the annular portion on one end side and attached to the band body fixture on the other end side, One engaging portion is formed in a predetermined region at least on the other end side of the outer surface of the second belt body, and the other engaging portion is formed on the inner surface of the lid portion of the belt body fitting, The attachment position of the second belt body and the belt body attachment tool can be adjusted by opening the part, and the lid part is closed to engage the one engagement part and the other engagement part. Thus, the attachment position of the second belt body and the belt body fixture can be fixed.

  The exercise optimization support apparatus of the present invention recognizes a classification of a stored environmental parameter corresponding to the detected environmental parameter, and recognizes the detected environmental parameter and the corresponding motion information for comparison of the user and the recognized environmental parameter classification. And the corresponding reference motion information, and warning information is output to the output unit when the user's comparison motion information detected for the reference motion information is outside the threshold range or exceeds the value of the reference motion information. By outputting, the user can recognize an appropriate exercise according to the state of the natural environment during exercise, and can assist the user in optimizing the exercise.

  In addition, a classification composed of a plurality of stored environmental parameters corresponding to the plurality of detected environmental parameters is recognized, and the classification of the environmental parameters recognized as the user's comparison motion information corresponding to the detected environmental parameters. By outputting warning information to the output unit in comparison with the corresponding reference exercise information, the user can recognize the appropriate exercise more accurately corresponding to the state of the natural environment during exercise. Can help to optimize exercise.

  In addition, it recognizes the stored environmental parameter category corresponding to the detected environmental parameter, and outputs the reference motion information or its deformation information corresponding to the recognized environmental parameter category at the output unit, etc. Sometimes, the user can recognize an appropriate exercise according to the state of the natural environment, and can assist the user in optimizing the exercise.

  Further, by using an acceleration sensor, a pulse wave meter, or an electrocardiograph as the motion information detection unit, the motion information of the user can be accurately recognized based on the user's motion, pulse, and heart rate.

  In addition, by setting the environmental parameter detection unit to a micro fluctuation barometer, micro fluctuation thermometer, micro fluctuation hygrometer, or micro fluctuation illuminance sensor, the user can perform more appropriate exercise according to atmospheric pressure, temperature, humidity or illuminance. Can be recognized.

  In addition, the environmental parameter detection unit continuously detects the environmental parameter when detecting the exercise information by the exercise information detection unit, the fluctuation processing unit acquires the environmental parameter detected by the environmental parameter detection unit, and acquires the acquired environment. By outputting warning information to the output unit when the fluctuation value of the parameter within a predetermined time exceeds the reference fluctuation value, it corresponds to the fact that a lesion is likely to occur at the time of a sudden fluctuation of, for example, atmospheric pressure, Attention can be given to the user at the time of change.

  In addition, by making it possible to adjust and place the position of the motion state detector in the first band and the second band, it is easy to obtain the most accurate movement information such as the center position near the user's heart. In addition, the motion state detection unit can be reliably arranged. In addition, by adjusting the length by opening the lid, and fixing the length by closing the lid, the length of the second band can be adjusted freely, and at the same time, the motion state to the required position is detected. The part can be placed with high stability.

The block diagram which shows the structure of the exercise | movement optimization assistance apparatus of 1st Embodiment. Explanatory drawing which shows the external shape of the exercise | movement optimization assistance apparatus of 1st Embodiment. The figure which shows the data table stored in the reference | standard exercise | movement information storage part. The perspective view which shows the external appearance structure of the exercise | movement optimization assistance apparatus of 2nd Embodiment. (A) is a perspective view which shows the vicinity of the band attachment tool in FIG. 4, (b) is a longitudinal cross-sectional explanatory drawing explaining the engagement with the band attachment tool and the 2nd belt of FIG.

  Hereinafter, an embodiment of the exercise optimization support device of the present invention will be described with reference to the drawings.

[Exercise Optimization Support Device of First Embodiment]
As shown in FIGS. 1 and 2, the exercise optimization support apparatus 10 according to the first embodiment includes an environmental parameter detection unit 11, an exercise information detection unit 12, a reference exercise information storage unit 13, and a comparison processing unit 14. , A reference motion information processing unit 15, an input unit 16 such as a button, an output unit 17 including a display 17 a and a speaker 17 b or one of them, and a variation processing unit 18.

  The reference exercise information storage unit 13, the contrast processing unit 14, and the reference exercise information processing unit 15 are built in the housing 101, and the housing 101 is provided with an input unit 16 and an output unit 17. In addition, the environmental parameter detection unit 11 and the motion information detection unit 12 are housed in the housing 101 or directly attached to the housing 101, or provided away from the housing 101, and the communication control unit is provided in the housing 101. Wired or wireless connection via In the example of FIG. 2, the environmental parameter detection unit 11 is directly attached to the housing 101, and the motion information detection unit 12 is provided apart from the housing 101, and is connected to the housing 101 via a wired cord. It has been. The exercise optimization support apparatus 10 accommodates the housing 101 in, for example, a user's chest pocket, or is attached to a front position or waist near the user's heart with an attachment belt (not shown), or an attachment (not shown). Used by attaching to the belt around the user's waist.

  The environmental parameter detection unit 11 can detect at least one environmental parameter, and can detect a plurality of environmental parameters in this embodiment. That is, in the present embodiment, as the environmental parameter detection unit 11 that can detect the atmospheric pressure and the air temperature that are two environmental parameters, the barometer 11a that can detect a minute change in pressure and the thermometer 11b that can detect a minute change in temperature. The barometer 11 a and the thermometer 11 b are attached to the housing 101. The barometer 11 a and the thermometer 11 b are attached to the housing 101 so as to be exposed from the surface of the housing 101. The barometer 11 a and the thermometer 11 b that are the environmental parameter detection unit 11 detect the atmospheric pressure and the temperature according to a predetermined input from the input unit 16. The environmental parameter detection unit 11 of this example is configured to continuously detect environmental parameters when the exercise information is detected by the exercise information detection unit 12, but every 5 minutes, every 10 minutes, every 30 minutes, every hour, etc. It is also possible to adopt a configuration in which detection is intermittently performed at predetermined intervals.

  The movement information detection unit 12 can detect the movement information of the user. In the present embodiment, the movement information detection unit 12 is a triaxial acceleration sensor that is an acceleration sensor, and is connected to the inside of the housing 101 via a wire via a communication control unit. It is attached to the user at a location away from or close to the user. For example, the housing 101 is accommodated in the chest pocket of the user, and the motion information detection unit 12 that is a three-axis acceleration sensor is attached to the front position near the user's heart or the waist with a mounting belt. Is done. The triaxial acceleration sensor, which is the motion information detection unit 12, measures the user's movement in accordance with a predetermined input from the input unit 16, and measures accelerations in three directions of the vertical x direction, y direction, and z direction, respectively. To detect.

  The motion information detection unit 12 is accommodated in the case 101, directly attached to the case 101, or provided away from the case 101, and connected to the case 101 by wire or wireless via a communication control unit. In any configuration, it is preferable that the motion state detection unit 12 that is a three-axis acceleration sensor is mounted at the mid position of the user's body, thereby accurately collecting the movement in the front-rear, left-right, up-down directions.

  The reference exercise information storage unit 13 is configured by a hard disk or the like, and is mounted in the housing 101. As shown in FIG. 3, the reference motion information storage unit 13 stores reference motion information corresponding to at least one environmental parameter classification, and in this embodiment, the atmospheric pressures of two environmental parameters, which are a plurality of environmental parameters, are stored. The reference exercise information is stored corresponding to the category composed of the temperature. The reference motion information in this example is obtained by integrating and integrating the accelerations in the three directions of the x, y, and z directions measured by the three-axis acceleration sensor that is the motion information detection unit 12. That is, the reference accumulated exercise amount.

  In the example of FIG. 3, four air temperature ranges of air temperature ranges T1 to T2, T2 to T3, T3 to T4, and T4 to T5 are set corresponding to the air pressure ranges of the air pressure ranges P1 to P2, and the air pressure range P2 Similarly, each of the atmospheric pressure categories of P3, P3 to P4, P4 to P5,... Has four temperature categories of temperature ranges T1 to T2, T2 to T3, T3 to T4, and T4 to T5. Yes. The reference exercise information storage unit 13 stores the reference accumulated exercise amount 001 corresponding to the atmospheric pressure range of the atmospheric pressure range P1 to P2 and the atmospheric temperature range of the air temperature range T1 to T2, and stores the atmospheric pressure of the atmospheric pressure range P1 to P2. The reference cumulative momentum 002 is stored corresponding to the temperature and the temperature range of the temperature range T2 to T3, ..., the standard integration corresponding to the pressure range of the pressure range P2 to P3 and the temperature range of the temperature range T1 to T2. The amount of exercise 005 is stored, and each reference accumulated exercise amount is stored in the same manner.

  The comparison processing unit 14 includes a CPU, a memory, and the like that operate according to a predetermined control program. The comparison exercise is performed based on the user's exercise information corresponding to the environment parameter detected by the environment parameter detection unit 11 and the exercise information detection unit 12. In this example, the barometer 11a and the thermometer 11b constituting the environmental parameter detection unit 11 detect the atmospheric pressure and the atmospheric temperature as the environmental parameters, and in the x direction by the triaxial acceleration sensor which is the motion information detection unit 12. , Y-direction and z-direction accelerations are measured and detected as user motion information corresponding to the detected atmospheric parameters atmospheric pressure and temperature, and detected in three directions of the x-direction, y-direction and z-direction. An integrated momentum is obtained by integrating and accumulating acceleration, and the accumulated momentum is associated with the detected environmental parameters atmospheric pressure and temperature. And use exercise information. In addition, according to the content of the detected user's exercise information and the reference exercise information, the comparison exercise information is acquired from the detected user's exercise information through a predetermined calculation process, or the detected exercise information is the same. Can be.

  Further, the comparison processing unit 14 recognizes the classification of the environmental parameters stored in the reference exercise information storage unit 13 corresponding to the detected environmental parameters, and the user's comparison exercise information corresponding to the detected environmental parameters. The recognized environmental parameter classification is compared with the corresponding reference motion information, and when the user's comparison motion information detected with respect to the reference motion information is out of the threshold range, the hard disk or the like is configured. The warning information stored in the one warning information storage unit 141 is output to the output unit 17. In this example, the atmospheric pressure and temperature classifications, which are the environmental parameter classifications stored in the reference motion information storage unit 13, corresponding to the detected atmospheric parameters atmospheric pressure and temperature are recognized and correspond to the detected atmospheric pressures and temperatures. The user's accumulated exercise amount is compared with the reference accumulated exercise amount stored in the reference exercise information storage unit 13 corresponding to the recognized atmospheric pressure and temperature categories, and the detected user's accumulated exercise amount is detected. When the accumulated exercise amount is outside the threshold range, the warning information stored in the first warning information storage unit 141 is output as an image of the display 17a, a sound of the speaker 17b, or both.

  The threshold range can be set as appropriate. For example, ± 10% kcal of the reference cumulative exercise amount corresponding to one category is within the threshold range, and when it exceeds the threshold range, it can be out of the threshold range. . The configuration for outputting the warning information by comparing the comparison exercise information with the reference accumulated exercise amount is, for example, the comparison exercise information in addition to the configuration for outputting the warning information by comparing the threshold value range of the reference accumulated exercise amount. It is possible to adopt a configuration in which warning information is output when a certain accumulated exercise amount exceeds a reference accumulated exercise amount that is reference exercise information.

  The reference motion information processing unit 15 includes a CPU, a memory, and the like that operate according to a predetermined control program. The reference motion information processing unit 15 acquires the environmental parameter detected by the environmental parameter detection unit 11 according to a predetermined input from the input unit 16, and detects the environmental parameter. The environmental parameter classification stored in the reference motion information storage unit 13 corresponding to the environmental parameter is recognized, and the output unit 17 outputs the reference motion information corresponding to the recognized environmental parameter classification. In this example, in response to a predetermined input from the input unit 16 of the user, the atmospheric pressure and the air temperature, which are environmental parameters detected by the barometer 11a and the thermometer 11b constituting the environmental parameter detection unit 11, are acquired, and the atmospheric pressure is obtained. And the classification of the atmospheric pressure and the temperature stored in the reference motion information storage unit 13 corresponding to the temperature, and the reference integrated motion amount corresponding to the recognized environmental parameter classification is displayed on the video of the display 17a or the audio of the speaker 17b. Are output as both. The reference motion information processing unit 15 is transformed into its characteristic content according to the content of the reference motion information stored in the reference motion information storage unit 13 and outputted as deformation information. Information that is more easily understood by the user may be output by a configuration in which deformation information stored corresponding to each exercise information is output.

  The variation processing unit 18 includes a CPU, a memory, a timer, and the like that operate according to a predetermined control program. The fluctuation processing unit 18 continuously or sequentially acquires the environmental parameters detected by the environmental parameter detection unit 11, and obtains at least one acquired environmental parameter. A fluctuation value within a predetermined time is acquired continuously or sequentially, and when the fluctuation value exceeds a reference fluctuation value stored in a reference fluctuation value storage unit 181 constituted by a hard disk or the like, the fluctuation value is constituted by a hard disk or the like. The warning information stored in the second warning information storage unit 182 is output to the output unit 17. In this example, the fluctuation processing unit 18 continuously acquires the atmospheric pressure and the temperature detected by the barometer 11a and the thermometer 11b constituting the environmental parameter detection unit 11, and within a predetermined time (for example, within 10 minutes) of the acquired atmospheric pressure. , Within 30 minutes, within 1 hour, etc.) and continuously obtaining fluctuation values within a predetermined time of temperature (for example, within 10 minutes, within 30 minutes, within 1 hour, etc.) When the fluctuation value or the fluctuation value of the air temperature within a predetermined time exceeds the reference fluctuation value, the warning information stored in the second warning information storage unit 182 is displayed as an image on the display 17a and / or the sound of the speaker 17b. Output.

  The exercise optimization support apparatus 10 of the first embodiment outputs warning information by comparing the detected environmental parameter with the corresponding exercise information for comparison of the user with the recognized environmental parameter classification and the corresponding reference exercise information. Thus, during exercise, the user can recognize an appropriate exercise more accurately corresponding to the state of the natural environment, and can assist the user in optimizing the exercise. In addition, by outputting the reference motion information corresponding to the recognized environmental parameter categories, the user can recognize appropriate exercise according to the state of the natural environment when necessary, such as before exercise, Can help to optimize. Further, by using the motion information detection unit 12 as a three-axis acceleration sensor, the motion information of the user can be accurately recognized based on the user's movement or heartbeat. Further, by setting the environmental parameter detection unit 11 to the barometer 11a and the thermometer 11b, the user can recognize an appropriate exercise according to the atmospheric pressure and the air temperature. The fluctuation processing unit 18 acquires the environmental parameter detected by the environmental parameter detection unit 11, and outputs warning information when the fluctuation value of the acquired environmental parameter within a predetermined time exceeds the reference fluctuation value, For example, it is possible to call attention to the user when the environmental parameter changes suddenly, in response to the fact that a lesion such as posture control abnormality such as dazzling is likely to occur even when the atmospheric pressure changes rapidly.

[Exercise Optimization Device of Second Embodiment]
Next, the motion optimization apparatus of 2nd Embodiment is demonstrated. As shown in FIG. 4, the motion optimization device 10 according to the second embodiment includes a housing 101, an annular first belt body 20 to which the housing 101 is fixedly attached to the front surface, and a first belt body. 20 is provided with a pair of second band bodies 30 attached to 20 and a pair of band body attachments 40 into which the first band body 20 and the second band body 30 are inserted. The housing 101 is configured by directly attaching the motion information detection unit 12 of the first embodiment to the housing 101, and other configurations are the same as those of the first embodiment. The first belt 20 and the second belt 30 are preferably formed of a material having low stretchability such as cloth.

  As shown in FIG. 4, the second band 30 is a linear band having both ends, and an annular part 31 is formed at one end, and the first band 20 is inserted into the annular part 31. ing. By winding the annular portion 31 around the outer side of the first belt member 20, one end of each second belt member 30 extends in the lateral direction along the first belt member 20, as shown by a two-dot chain line in FIG. It comes to slide.

  As shown in FIGS. 4 and 5, the band attachment 40 includes a box-shaped main body 41 and a lid portion 42 that closes the open surface of the main body 41. One side is connected to one side of the main body 41 by a hinge 43. On the other side of the lid portion 42 facing the one side, engaging portions 44 such as claw-like portions are formed at both ends, and the other side of the main body 41 (not shown) is formed. The engaging portion 44 is engaged with an engaged portion such as a concave portion into which the claw is formed. That is, the engaging portion 44 engages and the lid portion 42 is closed with respect to the main body 41 when closed, and the engagement portion 44 is disengaged when the opening is opened and the lid portion 42 is centered on the hinge 43 with respect to the main body 41. (See the two-dot chain line in FIG. 5A).

  Insertion holes 45 are respectively formed in one opposing side wall of the main body 41, and the first band 20 is inserted in the lateral direction so as to communicate with the opposed insertion holes 45, 45. 40 slides in the horizontal direction along the first belt 20 (see the two-dot chain line in FIG. 4). Further, in the opposite side walls of the main body 41, recesses 46 are respectively formed at positions outside the insertion holes 45. Then, the second belt 30 is inserted in the longitudinal direction so as to communicate with the opposing hole formed by the opposed concave portions 46 and 46 and the closed lid portion 42, and the lid portion 42 is opened. The second belt 30 can be expanded and contracted in the longitudinal direction with respect to the belt fixture 40 (see the two-dot chain line in FIG. 4).

  In a predetermined region on the outer surface of the second band 30 or on the other end side of the outer surface of the second band 30, a sawtooth-shaped step portion 32 corresponding to one engagement portion is formed. Further, a sawtooth-shaped step 421 corresponding to the other engaging portion is formed on the inner surface of the lid portion 42 with a shape and pitch corresponding to the sawtooth-shaped step 32. The length of the second band 30 can be adjusted with respect to the band mounting tool 40 when the lid 42 is opened, and the engagement between the step 32 and the step 421 when the lid 42 is closed. As a result, it can be placed while maintaining a desired stretched length state.

  When the motion optimization device 10 of the second embodiment is used, the first belt body 20 is disposed around the chest of the user, and the pair of second belt bodies 30 and 30 are hung on the shoulders of the user. Arrange. When hanging on the shoulder, the positions of the second belt bodies 30 and 30 are adjusted by the lateral movement of the annular portion 31 and the belt body fixture 40. In order to adjust according to the size of the user's chest, etc., a buckle or the like whose length can be adjusted may be provided on the first belt body 20 at the back position facing the housing 101, for example. Thereafter, the lid part 42 of the band attachment tool 40 is opened to adjust the length of the second band 30, and the casing 101 is located at the center position near the user's heart, for example, the position between the lowest ribs. In this state, the lid portion 42 is closed and the length thereof is fixed by the step portion 32 and the step portion 421.

  The motion optimization support apparatus 10 according to the second embodiment provides the most accurate motion information such as the center position of the user in the vicinity of the heart when the motion state detection unit 12 such as an acceleration sensor or an electrocardiograph is provided in the housing 101. The housing 101 can be easily and reliably arranged at a position where it can be acquired. Moreover, by opening the lid part 42 and adjusting the length, and fixing the length by closing the lid part 42, the length can be freely adjusted, and at the same time, the housing 101 can be fixed at a required position. It can be performed with high stability. In addition, the configuration corresponding to the first embodiment has the same effects as the first embodiment. Even when the motion state detection unit 12 is provided at a position different from the case 101, the motion state detection unit 12 is provided at the position of the first belt 20 corresponding to the case 101 of the second embodiment. It is possible to apply a form.

[Modifications of Embodiment, etc.]
In addition to the configurations of the inventions and embodiments, the invention disclosed in the present specification is specified by changing these partial configurations to other configurations disclosed in the present specification within the applicable range, or these Including those specified by adding other configurations disclosed in this specification, or those obtained by deleting these partial configurations to the extent that partial effects can be obtained, These modifications are also included.

  For example, the environmental parameter detection unit 11 is configured by a barometer, a thermometer, a thermometer, an illuminance sensor, or a combination thereof, preferably a barometer, thermometer, A hygrometer, an illuminance sensor, or the like, or a combination of at least two of these, may be configured to store the reference motion information in the reference motion information storage unit 13 corresponding to the classification of the plurality of environmental parameters. Is possible. Each of the detection means constituting the environmental parameter detection unit 11 can be attached to the housing 101 as necessary, or can be provided away from the housing 101 by wired or wireless connection. With the above-described configuration, it is possible to recognize an appropriate exercise corresponding to the natural environment.

  The micro-variation barometer has a measurement accuracy or resolution of 0.0005-0.01 hPa, preferably 0.0005 hPa-0.003 hPa, and the micro-variation thermometer is 0.01-0.1 ° C., Preferably having a measurement accuracy or resolution of 0.01 to 0.05 ° C., the micro-variation hygrometer is 0.1 to 1.0%, preferably 0.1 to 0.6% in relative humidity. It is preferable that the sensor having measurement accuracy or resolution and the minute fluctuation illuminance sensor have measurement accuracy or resolution of 10 to 300 lux, preferably 10 to 200 lux. Further, each detection means of the environmental parameter detection unit 11 is preferably provided on the front surface or the upper surface of the housing 101. For example, the barometer is the upper surface, the thermometer, the hygrometer, and the illuminance sensor are It is good to provide on the front side surface.

  The motion information detection unit 12 is a pulse wave meter, an electrocardiograph, or a combination of two or more of an electrocardiograph, a pulse wave meter, and an acceleration sensor, and corresponds to contrast motion information based on these detections. It is also possible to store the reference exercise information to be stored in the reference exercise information storage unit 13 as in the above embodiment. When using the pulse wave meter, the contrast processing unit 14 acquires pulse pressure × pulse pressure as contrast motion information from the measured pulse pressure, and stores the pulse pressure × pulse pressure reference stored in the reference motion information storage unit 13. Processed against the value (reference exercise information). When an electrocardiograph is used, the contrast processing unit 14 acquires heart rate × heart rate as contrast exercise information from the measured heart rate, and the heart rate × heart rate stored in the reference exercise information storage unit 13. This is compared with the reference value (reference motion information). Further, in the case where the comparison processing unit 14 is used in combination of these two or more types, any one of the comparisons is made according to the comparison result based on the threshold ranges corresponding to the acceleration sensor, the pulse wave meter, and the electrocardiograph. A configuration that outputs warning information when the result is out of the threshold range or a configuration that outputs warning information when the comparison results of all the motion information detection units 12 such as three are out of the threshold range. Is possible. Each of the detection means constituting the motion information detection unit 11 is attached to the casing 101 as necessary, or connected and separated from the casing 101 by wired or wireless connection, so that the front position near the heart, waist, wrist It can be provided in the heart or the like. With the above configuration, the user's motion information can be accurately recognized based on the user's movement, pulse, and heartbeat.

  Further, as a partial configuration of the above-described embodiment included in the present invention, for example, an environmental parameter detection unit 11 capable of detecting at least one environmental parameter, and a reference for storing reference motion information corresponding to the classification of the environmental parameter In response to the input from the exercise information storage unit 13 and the input unit 16, the environmental parameter detected by the environmental parameter detection unit 11 is acquired and stored in the reference exercise information storage unit 13 corresponding to the detected environmental parameter. The configuration may be such that the classification of the environmental parameter is recognized, and the reference movement information corresponding to the recognized classification of the environmental parameter or the deformation information thereof is output by the output unit 17.

  The present invention can be used, for example, in the manufacture of a device that assists the user in optimizing exercise.

DESCRIPTION OF SYMBOLS 10 ... Exercise optimization support apparatus 101 ... Housing 11 ... Environmental parameter detection part 11a ... Barometer 11b ... Thermometer 12 ... Movement information detection part 13 ... Reference exercise information storage part 14 ... Contrast processing part 141 ... First warning information storage Reference unit 15 ... Reference motion information processing unit 16 ... Input unit 17 ... Output unit 17a ... Display 17b ... Speaker 18 ... Fluctuation processing unit 181 ... Reference fluctuation value storage unit 182 ... Second warning information storage unit 20 ... First belt 30 ... 2nd belt 31 ... annular part 32 ... step part 40 ... belt body attachment tool 41 ... main body 42 ... lid part 421 ... step part 43 ... hinge 44 ... engagement part 45 ... insertion hole 46 ... concave part

Claims (5)

A motion information detection unit capable of detecting the movement information of use for the user,
When the movement information detection unit detects the movement information of the user, an environmental parameter detection unit capable of detecting a plurality of environmental parameters;
A reference motion information storage unit for storing reference motion information in association to the segment composed of the plurality of environmental parameters,
Get the comparison for motion information of said use's from motion data of the user to pre-Symbol motion information detection unit detects the said environmental parameter detection unit is the storage corresponding to the plurality of environmental parameters detected Recognizing a section composed of a plurality of environmental parameters, comparing the reference motion information associated with the recognized section with the acquired motion information for comparison of the user, and for the reference motion information A comparison processing unit that outputs warning information to the output unit when the user's comparison exercise information is outside the threshold range;
A housing that houses the reference motion information storage unit, the motion information detection unit, and the comparison processing unit;
The environmental parameter detection unit includes a barometer attached to the upper surface of the housing, a thermometer attached to the front surface of the housing, a hygrometer attached to the front surface of the housing, It consists of an illuminance sensor mounted on the front surface of the housing,
The barometer has a resolution of 0.0005 to 0.01 hPa;
The thermometer has a resolution of 0.01 to 0.1 degrees C;
The hygrometer has a resolution of 0.1-1.0%;
The illuminance sensor has a resolution of 10 to 300 lux,
The classification composed of the plurality of environmental parameters is an exercise optimization support apparatus characterized by associating a temperature range, a humidity range, and an illuminance range for each predetermined atmospheric pressure range . The housing is provided with an input unit and an output unit,
In response to an input from the input unit, the environmental parameter detected by the environmental parameter detection unit is acquired, the stored environmental parameter classification corresponding to the detected environmental parameter is recognized, and the recognition was divided with the corresponding reference motion information or motion optimization supporting apparatus according to claim 1 Symbol mounting, characterized in that it comprises a reference motion information processing unit that outputs the modification information in the output section of the environment parameters. The motion information detection unit, an acceleration sensor, motion optimization supporting apparatus according to claim 1 or 2, wherein that at least two combinations of the pulse wave detector or the electrocardiograph or these. The environmental parameter detection unit detects the environmental parameter continuously at the time of detection of exercise information by the exercise information detection unit or detects intermittently every short time within a set fixed time,
The variation processing unit that acquires the detected environmental parameter by the environmental parameter detection unit and outputs warning information to the output unit when a variation value of the acquired environmental parameter within a predetermined time exceeds a reference variation value The exercise optimization support apparatus according to any one of claims 1 to 3, further comprising: An annular first belt to which the motion state detector is fixedly attached;
A pair of band attachments disposed on both sides of the motion state detection unit, into which the first band is loosely inserted;
The first belt body is loosely inserted into the annular portion on one end side, and the second belt body attached to the belt body fixture on the other end side,
One engagement portion is formed in a predetermined region on at least the other end side of the outer surface of the second belt body,
The other engaging portion is formed on the inner surface of the lid portion of the band attachment tool,
It is possible to adjust the attachment position of the second band and the band attachment by opening the lid,
The attachment position of the second belt body and the belt body fixture can be fixed by closing the lid and engaging the one engagement part and the other engagement part. The exercise optimization support apparatus according to any one of claims 1 to 4 .

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